229 lines
9.2 KiB
Markdown
229 lines
9.2 KiB
Markdown
# Using Core
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Apache ActiveMQ Artemis core is a messaging system with its own API. We call
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this the *core API*.
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If you don't want to use the JMS API or any of the other supported protocols
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you can use the core API directly. The core API provides all the functionality
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of JMS but without much of the complexity. It also provides features that are
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not available using JMS.
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## Core Messaging Concepts
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Some of the core messaging concepts are similar to JMS concepts, but core
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messaging concepts are also different in some ways as well. In general the core
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API is simpler than the JMS API, since we remove distinctions between queues,
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topics and subscriptions. We'll discuss each of the major core messaging
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concepts in turn, but to see the API in detail please consult the Javadoc.
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Also refer to the [addressing model](address-model.md) chapter for a high-level
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overview of these concepts as well as configuration details.
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### Message
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- A message is the unit of data which is sent between clients and servers.
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- A message has a body which is a buffer containing convenient methods for
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reading and writing data into it.
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- A message has a set of properties which are key-value pairs. Each property
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key is a string and property values can be of type integer, long, short,
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byte, byte[], String, double, float or boolean.
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- A message has an *address* it is being sent to. When the message arrives on
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the server it is routed to any queues that are bound to the address. The
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routing semantics (i.e. anycast or multicast) are determined by the "routing
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type" of the address and queue. If the queues are bound with any filter, the
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message will only be routed to that queue if the filter matches. An address may
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have many queues bound to it or even none. There may also be entities other
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than queues (e.g. *diverts*) bound to addresses.
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- Messages can be either durable or non durable. Durable messages in a durable
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queue will survive a server crash or restart. Non durable messages will never
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survive a server crash or restart.
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- Messages can be specified with a priority value between 0 and 9. 0 represents
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the lowest priority and 9 represents the highest. The broker will attempt to
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deliver higher priority messages before lower priority ones.
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- Messages can be specified with an optional expiry time. The broker will not
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deliver messages after its expiry time has been exceeded.
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- Messages also have an optional timestamp which represents the time the
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message was sent.
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- Apache ActiveMQ Artemis also supports the sending/consuming of very large
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messages much larger than can fit in available RAM at any one time.
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### Address
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A server maintains a mapping between an address and a set of queues. Zero or
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more queues can be bound to a single address. Each queue can be bound with an
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optional message filter. When a message is routed, it is routed to the set of
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queues bound to the message's address. If any of the queues are bound with a
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filter expression, then the message will only be routed to the subset of bound
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queues which match that filter expression.
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Other entities, such as *diverts* can also be bound to an address and messages
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will also be routed there.
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> **Note:**
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>
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> Although core supports publish-subscribe semantics there is no such thing as
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> a "topic" per se. "Topic" is mainly a JMS term. In core we just deal with
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> *addresses*, *queues*, and *routing types*.
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>
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> For example, a JMS topic would be implemented by a single address to which
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> many queues are bound using multicast routing. Each queue represents a
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> "subscription" in normal "topic" terms. A JMS queue would be implemented as a
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> single address to which one queue is bound using anycast routing - that queue
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> represents the JMS queue.
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### Queue
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Queues can be durable, meaning the messages they contain survive a server crash
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or restart, as long as the messages in them are durable. Non durable queues do
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not survive a server restart or crash even if the messages they contain are
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durable.
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Queues can also be temporary, meaning they are automatically deleted when the
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client connection is closed, if they are not explicitly deleted before that.
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Queues can be bound with an optional filter expression. If a filter expression
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is supplied then the server will only route messages that match that filter
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expression to any queues bound to the address.
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Many queues can be bound to a single address. A particular queue is only bound
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to a maximum of one address.
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### Routing Type
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The routing type determines the semantics used when routing messages to the
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queues bound to the address where the message was sent. Two types are
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supported:
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- `ANYCAST`
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The message is routed to only **one** of the queues bound to the address. If
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multiple queues are bound to the address then messages are routed to them in a
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round-robin fashion.
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- `MULTICAST`
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The message is route to **all** of the queues bound to the address.
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## Core API
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### ServerLocator
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Clients use `ServerLocator` instances to create `ClientSessionFactory`
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instances. `ServerLocator` instances are used to locate servers and create
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connections to them.
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In JMS terms think of a `ServerLocator` in the same way you would a JMS
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Connection Factory.
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`ServerLocator` instances are created using the `ActiveMQClient` factory class.
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### ClientSessionFactory
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Clients use `ClientSessionFactory` instances to create `ClientSession`
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instances. `ClientSessionFactory` instances are basically the connection to a
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server
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In JMS terms think of them as JMS Connections.
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`ClientSessionFactory` instances are created using the `ServerLocator` class.
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### ClientSession
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A client uses a `ClientSession`for consuming and producing messages and for
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grouping them in transactions. `ClientSession` instances can support both
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transactional and non transactional semantics and also provide an `XAResource`
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interface so messaging operations can be performed as part of a
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[JTA](http://www.oracle.com/technetwork/java/javaee/tech/jta-138684.html)
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transaction.
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`ClientSession` instances group `ClientConsumer` instances and `ClientProducer`
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instances.
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`ClientSession` instances can be registered with an optional
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`SendAcknowledgementHandler`. This allows your client code to be notified
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asynchronously when sent messages have successfully reached the server. This
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unique Apache ActiveMQ Artemis feature, allows you to have full guarantees that
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sent messages have reached the server without having to block on each message
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sent until a response is received. Blocking on each messages sent is costly
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since it requires a network round trip for each message sent. By not blocking
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and receiving send acknowledgements asynchronously you can create true end to
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end asynchronous systems which is not possible using the standard JMS API. For
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more information on this advanced feature please see the section [Guarantees of
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sends and commits](send-guarantees.md).
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### ClientConsumer
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Clients use `ClientConsumer` instances to consume messages from a queue. Core
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messaging supports both synchronous and asynchronous message consumption
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semantics. `ClientConsumer` instances can be configured with an optional filter
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expression and will only consume messages which match that expression.
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### ClientProducer
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Clients create `ClientProducer` instances on `ClientSession` instances so they
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can send messages. `ClientProducer` instances can specify an address to which
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all sent messages are routed, or they can have no specified address, and the
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address is specified at send time for the message.
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> **Warning**
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>
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> Please note that `ClientSession`, `ClientProducer` and `ClientConsumer`
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> instances are *designed to be re-used*.
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>
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> It's an anti-pattern to create new `ClientSession`, `ClientProducer` and
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> `ClientConsumer` instances for each message you produce or consume. If you do
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> this, your application will perform very poorly. This is discussed further
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> in the section on performance tuning [Performance Tuning](perf-tuning.md).
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## A simple example of using Core
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Here's a very simple program using the core messaging API to send and receive a
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message. Logically it's comprised of two sections: firstly setting up the
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producer to write a message to an *addresss*, and secondly, creating a *queue*
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for the consumer using anycast routing, creating the consumer, and *starting*
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it.
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```java
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ServerLocator locator = ActiveMQClient.createServerLocator("vm://0");
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// In this simple example, we just use one session for both producing and receiving
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ClientSessionFactory factory = locator.createClientSessionFactory();
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ClientSession session = factory.createSession();
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// A producer is associated with an address ...
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ClientProducer producer = session.createProducer("example");
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ClientMessage message = session.createMessage(true);
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message.getBodyBuffer().writeString("Hello");
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// We need a queue attached to the address ...
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session.createQueue("example", RoutingType.ANYCAST, "example", true);
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// And a consumer attached to the queue ...
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ClientConsumer consumer = session.createConsumer("example");
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// Once we have a queue, we can send the message ...
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producer.send(message);
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// We need to start the session before we can -receive- messages ...
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session.start();
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ClientMessage msgReceived = consumer.receive();
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System.out.println("message = " + msgReceived.getBodyBuffer().readString());
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session.close();
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```
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